Crystal structure of the CCA-adding enzyme from Arabidopsis thaliana

IF 3.5 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Structural Biology: X Pub Date : 2025-05-23 DOI:10.1016/j.yjsbx.2025.100127

Xiao Wang, Yuan-Yuan Li, Zi-Yan Dou, Jia Wang, Lin Liu

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Abstract

The 3′-terminal CCA-end of tRNA is essential for the attachment of amino acids and correct positioning of the aminoacyl-tRNA in the ribosome. In higher plants, the CCA sequence is synthesized, maintained, and repaired by class-II CCA-adding enzymes encoded by a single nuclear gene but multi-targeted to the nucleus, cytoplasm, plastids, and mitochondria. The structure of plant class-II CCA-adding enzyme remains unsolved. Here we describe the crystal structure of CCA-adding enzyme from Arabidopsis thaliana (AtCCA). The overall structure of AtCCA is similar to other class-II CCA-adding enzymes, but significant differences occur in the body domain. Structural comparison of body and tail domains between AtCCA and other class-II CCA-adding enzymes unravels three specific regions of AtCCA. Based on the modeled AtCCA-tRNA complex, AtCCA may have a different tRNA binding pattern. The three specific regions located in the body domain of AtCCA also provide candidate regions for multi-targeted sorting.

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拟南芥cca添加酶的晶体结构

tRNA的3 '端cca端对于氨基酸的附着和氨基酸基tRNA在核糖体中的正确定位至关重要。在高等植物中，CCA序列由一类CCA添加酶合成、维持和修复，这些酶由单个核基因编码，但多靶向细胞核、细胞质、质体和线粒体。植物ⅱ类cca添加酶的结构尚不清楚。本文描述了拟南芥（Arabidopsis thaliana, AtCCA）中cca添加酶的晶体结构。AtCCA的整体结构与其他ii类cca添加酶相似，但在体域上存在显著差异。AtCCA与其他ii类添加cca酶的体和尾结构域的结构比较揭示了AtCCA的三个特定区域。基于建模的AtCCA-tRNA复合物，AtCCA可能具有不同的tRNA结合模式。位于AtCCA体域的三个特定区域也为多目标排序提供了候选区域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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